Abstract
Three different spherical, rod and fibrous morphologies of hydroxyapatite (HA) nanoparticles have been prepared through control over the processing parameters like temperature, pH and Ca:P ratio. Protein adsorption/release with respect to HA nanoparticle morphologies are investigated using model protein bovine serum albumin (BSA). BSA adsorption on HA nanoparticles follows Langmuir adsorption isotherm. Thermal analysis and FT-IR spectrum confirms the BSA adhesion and retention of their secondary structure. High surface area with high Ca:P ratio nanorod adsorbs relatively more amount (28mg BSA/gm of nanorod HA) of BSA within 48h in comparison with counterpart fibroid and spherical morphologies. Slow and steady BSA release (75wt% of adsorbed BSA in 96h) from nanorod HA is found as futuristic drug delivery media.
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